Systems and methods for facilitating travel site navigation

ABSTRACT

Systems and methods for facilitating interactions between a travel website and a user device are provided. A described system includes a user device configured to receive itinerary-specific data and instructions for performing a travel-related action from a remote server. The instructions may include multiple lines of computer code for automatically navigating a particular travel website and multiple lines of computer code for automatically providing the itinerary-specific data to the travel website. The user device includes a web browser configured to receive and load a website file from the travel website. The user device is configured to inject the instructions for performing the travel-related action into the loaded website file and execute the instructions injected therein. Executing the instructions causes the user device to automatically perform the travel-related action.

BACKGROUND

The present description relates generally to systems and methods formanaging travel arrangements on a mobile device. More specifically, thepresent description relates to systems and methods for automaticallynavigating a website operated by a travel provider and for facilitatinginteractions between such travel websites and a mobile device.

Many travel providers operate websites through which users can createand manage travel arrangements. For example, a user may visit websitesoperated by airlines, hotels, or car rental services to purchase airlinetickets, check-in to a flight or hotel, cancel or change reservations,or perform other travel-related actions. Although many travel websitesrequire the same or similar information from a user for performing suchtravel-related actions, the structure and user interface for varioustravel websites are often significantly different. It can be challengingand time consuming for a user to learn and navigate many different userinterfaces presented by different travel websites.

Additionally, using a travel website to perform travel-related actions(e.g., checking into a flight or hotel) typically requires a user tomanually enter information relating to a particular user and aparticular travel arrangement. For example, a user may be required tologin to a user account and enter a confirmation number before beingable to confirm a reservation or check-in for a flight. It ischallenging and difficult to automate such travel-related actions due tothe differences between travel providers' websites and the user-specificand arrangement-specific information required.

SUMMARY

One implementation of the present disclosure is a system forfacilitating interactions between a travel website and a user device.The system includes a user device configured to receiveitinerary-specific data and instructions for performing a travel-relatedaction from a remote server. The instructions may include multiple linesof computer code for automatically navigating a particular travelwebsite and multiple lines of computer code for automatically providingthe itinerary-specific data to the travel website. The user deviceincludes a web browser configured to receive and load a website filefrom the travel website. The user device is configured to inject theinstructions for performing the travel-related action into the loadedwebsite file and execute the instructions injected therein. Executingthe instructions causes the user device to automatically perform thetravel-related action.

In some embodiments, executing the instructions causes the user deviceto automatically populate one or more form fields of the travel websitewith the itinerary-specific data. In some embodiments, the multiplelines of computer code for automatically navigating the travel websiteare specific to the particular travel website and executing theinstructions causes the user device to automatically navigate throughmultiple pages of the travel website required to perform thetravel-related action. In some embodiments, the user device is a mobiledevice configured to execute a mobile application for facilitatinginteractions with the travel website and the mobile application includesthe web browser embedded therein.

In some embodiments, the user device is configured to receive a userinput requesting performance of the travel-related action. The userdevice may be configured to send a request for instructions forperforming the travel-related action to the remote server in response tothe user input. The request for instructions may include an indicationof a particular travel itinerary. Executing the instructions may causethe user device to provide itinerary-specific data relating to theparticular travel itinerary to the travel website.

In some embodiments, the system further include a remote serverconfigured to receive the request for instructions for performing thetravel-related action from the user device, generate the instructionsfor performing the travel-related action, and provide the instructionsto the user device. In some embodiments, the request for instructionsincludes an indication of a particular travel itinerary, the remoteserver is configured to provide the itinerary-specific data to the userdevice, and the itinerary-specific data relate to the particular travelitinerary.

In some embodiments, the remote server is configured to identify aresource location of the travel website for performing thetravel-related action and provide the URL of the identified travelwebsite to the user device. Receiving the website file from the travelwebsite may include retrieving a website file associated with theidentified resource location. In some embodiments, the instructions forperforming the travel-related action are JavaScript® instructions.

Another implementation of the present disclosure is a method forfacilitating interactions between a travel website and a user device.The method includes initiating, at a remote server, synchronization ofitinerary-specific data and instructions for performing a travel-relatedaction. The method further includes retrieving itinerary-specific datarelating to a particular travel itinerary from an itinerary database andidentifying, by the remote server, information for accessing a travelwebsite for performing the travel-related action. The method furtherincludes generating, by the remote server, instructions for performingthe travel-related action. The instructions may include multiple linesof computer code for automatically navigating the identified travelwebsite and multiple lines of computer code for automatically providingthe itinerary-specific data to the travel website. The method furtherincludes providing the information for accessing the travel website andthe instructions for performing the travel-related action to the userdevice.

In some embodiments, the method includes retrieving website-specificnavigation information from a website navigation database. The multiplelines of computer code for automatically navigating the identifiedtravel website may be specific to the identified travel website andbased on the website-specific navigation information retrieved from thewebsite navigation database.

In some embodiments, the multiple lines of computer code for providingthe itinerary-specific data to the travel website include instructionsfor automatically filling form fields of the travel website with theitinerary-specific data.

In some embodiments, the method further includes providing theitinerary-specific data to the user device prior to providing theinstructions for performing the travel-related action. Theitinerary-specific data may be stored on the user device. Theinstructions for performing the travel-related action may includemultiple lines of computer code for automatically providing theitinerary-specific data previously stored on the user device to thetravel website. In some embodiments, the multiple lines of computer codefor automatically providing the itinerary-specific data to the travelwebsite include the itinerary-specific data retrieved from the itinerarydatabase.

In some embodiments, the method further includes retrieving, from a userinformation database, user-specific information relating to one or moreusers associated with the particular travel itinerary. The instructionsfor performing the travel-related action may include multiple lines ofcomputer code for automatically providing the user-specific informationto the travel website.

In some embodiments, the instructions for performing the travel-relatedaction define a first set of instructions and the method furtherincludes generating a second set of instructions including instructionsfor injecting the first set of instructions into existing data of thetravel website and providing the second set of instructions to the userdevice. The second set of instructions may cause the user device tocreate a modified travel website by injecting the first set ofinstructions into the existing data of the travel website.

Another implementation of the present disclosure is a method forfacilitating interactions between a travel website and a user device.The method includes receiving, at a user device, itinerary-specificdata, information identifying a travel website, and instructions forperforming a travel-related action. The instructions may includemultiple lines of computer code for automatically navigating the travelwebsite and multiple lines of computer code for automatically providingthe itinerary-specific data to the travel website, wherein theitinerary-specific data is specific to a particular travel itinerary.The method further includes receiving, via a user interface element of auser device, an input requesting performance of a travel-related actionby the user device and using the instructions and the itinerary-specificdata to automatically navigate the identified travel website and performthe travel-related action.

In some embodiments, the method further includes retrieving an originalwebsite file from the identified travel website, creating a modifiedtravel website file by injecting the instructions for performing thetravel-related action into the original website file, and loading themodified travel website file using a web browser of the user device. Insome embodiments, the modified travel website file includes one or moreform fields pre-populated with the itinerary-specific data.

In some embodiments, the method further includes automaticallynavigating through multiple pages of the travel website according to theinstructions injected into the modified website file.

Those skilled in the art will appreciate that the summary isillustrative only and is not intended to be in any way limiting. Otheraspects, inventive features, and advantages of the devices and/orprocesses described herein, as defined solely by the claims, will becomeapparent in the detailed description set forth herein and taken inconjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a drawing illustrating, in brief overview, a system forfacilitating interactions between a user device and a travel website,according to an exemplary embodiment.

FIG. 2 is a drawing of a contextual user interface element which may bepresented by the user device and used to automatically fill form fieldswith itinerary-specific data without requiring a user to manually enterthe data, according to an exemplary embodiment.

FIG. 3A is a system architecture diagram illustrating, in greaterdetail, the system of FIG. 1 and showing a series process steps whichmay be performed by a remote server and a user device for facilitatinginteractions between the user device and a travel website, according toan exemplary embodiment.

FIG. 3B is a system architecture diagram illustrating, in greaterdetail, the system of FIG. 1 and showing an alternate series processsteps which may be performed by a remote server and a user device forfacilitating interactions between the user device and a travel website,according to an exemplary embodiment.

FIG. 4 is a block diagram illustrating, in greater detail, the remoteserver shown in FIGS. 3A-3B, according to an exemplary embodiment.

FIG. 5 is a block diagram illustrating, in greater detail, the userdevice shown in FIGS. 3A-3B, according to an exemplary embodiment.

FIG. 6 is a drawing of a user interface which may be presented via theuser device, showing a selectable icon for initiating a process toautomatically perform a travel-related action, according to an exemplaryembodiment.

FIGS. 7-12 are drawings of another user interface which may be presentedvia the user device in response to a user selection of the selectableicon of FIG. 6, the user interface illustrating, in greater detail, thecontextual user interface element of FIG. 2, according to an exemplaryembodiment.

FIG. 13 is a flowchart of a process which may be performed by the remoteserver of FIG. 4 for facilitating interactions between a user device anda travel website, according to an exemplary embodiment.

FIG. 14 is a flowchart of a process which may be performed by the userdevice of FIG. 5 for facilitating interactions between the user deviceand a travel website, according to an exemplary embodiment.

FIG. 15 is a flowchart of a process which may be performed by the remoteserver of FIG. 4 for generating and causing presentation of thecontextual user interface element shown in FIGS. 7-12, according to anexemplary embodiment.

FIG. 16 is a flowchart of a process which may be performed by the userdevice of FIG. 5 for presenting the contextual user interface elementshown in FIGS. 7-12, according to an exemplary embodiment.

FIG. 17 is a flowchart of a process for identifying and assigning datavalues for a set of itinerary-specific data elements required forcompleting a travel-related action, according to an exemplaryembodiment.

FIG. 18 is a flowchart of a process for automatically filling formfields of a travel website with itinerary-specific data andautomatically navigating through a travel website to complete atravel-related action, according to an exemplary embodiment.

DETAILED DESCRIPTION

Referring generally to the FIGURES, systems and methods for facilitatinginteractions between a travel website and a user device are shown,according to several exemplary embodiments. The systems and methodsdescribed herein may be used to automate or partially automate varioustravel-related actions which can be performed through a travel website(e.g., a website operated by a travel provider such as an airline, ahotel, a car rental service, etc.). For example, the described systemsand methods can be used to facilitate online check-in for a flight or ahotel, to confirm or change existing travel arrangements, to create newtravel arrangements, and/or to perform other travel-related actionswhich can be accomplished through a travel website.

Although many travel websites require the same or similar types ofinformation from a user for performing travel-related actions (e.g.,user name, confirmation number, phone number, etc.), the particularinformation may be different for different websites. For example, ausername and password for logging in to the American Airlines websitemay be different than a username and password for logging in to theUnited Airlines website for the same user. Additionally, the stepsrequired to navigate the American Airlines website and the UnitedAirlines website may be significantly different. It can be challengingand time consuming for a user to learn and navigate many differenttravel websites. Also, it can be difficult for a user to remember orretrieve itinerary-specific information (e.g., reservation number,confirmation number, flight departure time, etc.) relating to particulartravel arrangements.

Advantageously, the systems and methods described herein may provide auser-friendly interface for interacting with many different travelwebsites via a single user application. The described systems andmethods may facilitate automatic navigation through many differenttravel websites to direct a user to the exact webpage required toperform the desired travel-related action. Additionally, the describedsystems and methods can automatically provide itinerary-specific data tothe travel website (e.g., by automatically filling form fields presentedon the travel website, by presenting a user interface element containingitinerary-specific data, etc.), thereby eliminating the requirement fora user to remember or retrieve such information (e.g., from aconfirmation email, etc.). Thus, the systems and methods of the presentapplication may advantageously allow a user to quickly open anapplication and check-in to a flight without searching through emailsfor the information needed to manually login to the travel provider'swebsite or complete the check-in process.

Referring now to FIG. 1, a drawing of a system 100 for facilitatinginteractions between a travel website and a user device is shown,according to an exemplary embodiment. System 100 illustrates, in briefoverview, several features and advantages provided by the systems andmethods of the present disclosure. System 100 is shown to include a userdevice 102, a remote server 104, and a travel provider 106. In someembodiments, user device 102 is a mobile computing device such as asmartphone, a laptop computer, a tablet computer, or other portablecomputing device. User device 102 is configured to run a mobileapplication. The mobile application is configured to interact withremote server 104 and travel provider 106 for performing varioustravel-related actions. In some embodiments, the mobile applicationincludes an embedded web browser for rendering and/or presenting travelwebsite data from travel provider 106.

Remote server 104 manages and stores itinerary-specific data andsite-specific navigation information. Itinerary-specific data includesinformation relating to a particular user and/or a particular travelarrangement (e.g., flight number, reservation number, departure time,departure location, passenger name, etc.). Site-specific navigationinformation includes information describing a sequence of actions or webpages required to perform a particular travel-related action for aparticular travel website.

Travel provider 106 may be a provider of any travel-related service. Forexample, travel provider 106 may be an airline, a railroad, a watertravel provider, a bussing provider, a hotel organization, a car rentalservice, or any other travel-related service provider. In alternateembodiments, travel provider 106 may be a travel agency or anothertravel-related service provider. Travel provider 106 may operate awebsite through which users can perform travel-related actions. Forexample, travel-related actions may include checking-in for a flight ora hotel, confirming or changing existing travel arrangements, cancelingtravel arrangements, creating new travel arrangements, or other types ofinteractions between a user and a travel provider 106.

The website operated by travel provider 106 may include a series ofindividual web pages. For example, a particular travel website mayrequire a user to login at a first webpage, enter a confirmation numberat a second webpage, and finally click a confirmation button at a thirdweb page. Ordinarily, a user would be required to manually navigate theseries of web page and manually enter information into each of theindividual web pages.

Still referring to FIG. 1, user device 102 is shown receivingitinerary-specific data and site-specific navigation logic from remoteserver 104. In some embodiments, the itinerary-specific data and/or thesite-specific navigation logic may be received from remote server 104 asexecutable instructions. User device 102 is also shown receiving aseries of web pages (e.g., travel website data) from travel provider106. Advantageously, user device 102 can combine the series of web pageswith the site-specific navigation logic and itinerary-specific data tocreate a modified version of the travel website which can beautomatically navigated and automatically populated by user device 102.

User device 102 can automatically navigate the series of web pagesreceived from travel provider 106 (e.g., according to the site-specificnavigation logic) and automatically enter any required information tothe series of web pages (e.g., according to the itinerary-specific data)to automatically complete the travel-related action. For example, userdevice 102 is shown displaying a web page having a “Last Name” formfield 108, a “Reservation #” form field 110, and a “Next Page” button111. The executable instructions may cause user device 102 to populateform fields 108-110 with the itinerary-specific data received fromremote server 104 and automatically select “Next Page” button 111 whenall of the required information has been entered.

User device 102 may be configured to present a contextual user interfaceelement 112 for displaying one or more of the itinerary-specific datareceived from remote server 104. Contextual user interface element 112may be configured to present the itinerary-specific data as selectabledata elements and/or movable icons. A user can drag an icon out ofcontextual user interface element 112 and drop the icon into a formfield of the travel website to insert/copy the value of the data elementassociated with the icon into the form field. Alternatively, a user canclick in a form field and then click an icon to apply the value of thedata element associated with the icon into the form field. Thissemi-automated form-filling (e.g., by dragging and dropping or clicking)may advantageously eliminate the need for users to manually enter theitinerary-specific information into the travel website.

Contextual user interface element 112 may be presented concurrently withone or more of the series of web pages received from travel provider106. In some embodiments, contextual user interface element 112 may beconfigured to display icons or data elements relevant to a particularweb page. For example, the application running on user device 102 may beconfigured to determine which of a plurality of itinerary specific dataelements to include within contextual user interface element 112 basedon the content of the webpage with which contextual user interfaceelement 112 is concurrently displayed. This feature may allow contextualuser interface element 112 to be adjusted (e.g., by adding or removingdata elements) as user device 102 navigates through the series of webpages to ensure that a user is provided with the information needed tocomplete any required form fields of the travel website.

Advantageously, user device 102 may run a single application configuredto access, automatically navigate, and automatically provideitinerary-specific data to many different travel websites. Theapplication may be a third-party application configured to access astandard mobile or non-mobile version of the travel providers' websitesusing a web browser embedded within the application. The application maynot be affiliated with any particular travel provider and may be capableof interacting with the websites of many different travel providers.

Referring now to FIG. 2, user device 102 may be configured to present acontextual user interface element 112. Contextual user interface element112 may include one or more of the itinerary-specific data received fromremote server 104. For example, referring specifically to FIG. 2A,contextual user interface element 112 is shown displaying a “Last Name”data element 114 and a “Reservation #” data element 116. In someembodiments, data elements displayed in contextual user interfaceelement 112 include an indication of the type of data element (e.g.,data element name, description, title, etc.) and a value of the dataelement. For example, the value of “Last Name” data element 114 is shownas “Andreas Evens” and the value of the “Reservation #” data element 116is shown as “34516464761.”

In some embodiments, one or more of form fields 108-110 may beautomatically populated with data element values according to theexecutable instructions received from remote server 104. For example,“Last Name” form field 108 is shown pre-populated with the value of“Last Name” data element 114. However, in some instances, not all formfields can be populated automatically. For example, some travel websitesmay be unsupported or may have recently changed in a way thattemporarily prevents automatic population (e.g., changed form fieldnames, updated website design, etc.). Contextual user interface element112 can be used to display itinerary-specific data in a format that canbe easily applied to form fields in the travel website when automaticpopulation is unavailable.

Referring specifically to FIGS. 2B-2C, data elements in contextual userinterface element 112 may be dragged into form fields in the travel website to automatically apply the value of the data elements to the formfield. For example, “Reservation #” data element 116 can be dragged intoform field 110 (shown in FIG. 2B) to apply the value of data element 116(e.g., “34516464761”) to form field 110 (shown in FIG. 2C). Data elementvalues may also be applied to form fields by clicking in the form fieldand clicking on the data element in contextual user interface element112. Advantageously, contextual user interface element 112 facilitatessemi-automatic form field population (e.g., by dragging and dropping,clicking, etc.) without requiring a user to manually enter the datavalue.

Referring specifically to FIGS. 2C-2D, in some embodiments, contextualuser interface element 112 may be configured to display data elementsrelevant to a particular web page. User device 102 may determine whichdata elements are relevant to a particular web page based on the contentof the web page data (e.g., HTML data, XML data, form field names,etc.). User device 102 may add, remove, re-organize, or otherwise adjustthe data elements presented in contextual user interface element 112based on the context provided by the web page data.

As user device 102 navigates from page to page (e.g., automatically orin response to a user input), the data elements displayed in contextualuser interface element 112 may be adjusted. For example, as user device102 navigates from the web page shown in FIG. 2C to the web page shownin FIG. 2D, data elements 114-116 may be replaced with data elements118-122. Data elements 118-122 may be selected for display in contextualuser interface element 112 based on the content of the web page shown inFIG. 2D. For example, FIG. 2D shows a web page having form fieldslabeled “Passport,” “Emergency Contact,” and “Phone.” User device 102may identify itinerary-specific data elements corresponding to the formfields in the web page and present the identified data elements incontextual user interface element 112. A user may apply the values ofdata elements 118-122 to the form fields by dragging and dropping orclicking, as previously described.

Referring now to FIG. 3A, a system architecture diagram 130 illustratingthe components of system 100 in greater detail is shown, according to anexemplary embodiment. System architecture diagram 130 is shown toinclude user device 102, remote server 104, and travel provider 106.

User device 102 may be any type of user-operable electronic device. Forexample, user device 102 may be a desktop computer, laptop computer,smartphone, tablet computer, mobile communication device, remoteworkstation, client terminal, entertainment console, or any other devicecapable of interacting with the other components of system 100 (e.g.,via a communications interface). In some embodiments, user device 102 isa mobile computing device (e.g., a laptop computer, a smartphone, etc.).In other embodiments, user device 102 is a non-mobile device (e.g., adesktop computer, a stationary client terminal, etc.).

User device 102 may be configured to run an application for interactingwith remote server 104 and travel provider 106. In some embodiments, theapplication may be a mobile application (e.g., an application designedto be run by a mobile computing device). The application may be used toautomate and/or facilitate performance of various travel-relatedactions. In some embodiments, the application includes an embedded webbrowser for rendering or presenting website data from travel provider106.

Still referring to FIG. 3A, remote server 104 may manageitinerary-specific data relating to particular travel arrangements. Forexample, when a user purchases a flight ticket, information relating tothe travel arrangement (e.g., flight number, reservation number,departure time, departure location, passenger name, etc.) may beprovided to remote server 104. Remote server 104 may interact withtravel provider 106 to retrieve detailed information relating to varioustravel arrangements and update the stored itinerary-specific data if anyof the details change. The itinerary-specific data may include datarelating to both a particular user and a particular travel arrangement.In some embodiments, the itinerary-specific data includes all the rawinformation necessary to perform a travel-related action.

Remote server 104 may also store site-specific navigation informationfor various travel websites. The site-specific navigation informationmay include information describing a sequence of actions required toperform a travel-related action for a particular travel website. Forexample, a particular travel website may require a user to login at afirst webpage, enter a confirmation number at a second webpage, andfinally click a confirmation icon at a third web page. The site-specificnavigation information may provide navigation logic for performing aparticular travel-related action at a particular travel website.

Still referring to FIG. 3A, travel provider 106 may be a provider of anytravel-related service. For example, travel provider 106 may be anairline, a railroad, a water travel provider, a bussing provider, ahotel organization, a car rental service, or any other travel-relatedservice provider. In alternate embodiments, travel provider 106 may be atravel agency or another travel-related service provider. Travelprovider 106 may operate a website through which users can performtravel-related actions (i.e., a “travel website”). For example,travel-related actions may include checking-in for a flight or a hotel,confirming or changing existing travel arrangements, canceling travelarrangements, creating new travel arrangements, or other types ofinteractions between a user and a travel provider 106. In someembodiments, the travel website includes a series of individual webpages and may include one or more web forms requiring input from userdevice 102 for completing the travel-related action.

Still referring to FIG. 3A, system architecture diagram 130 is shown toinclude a series of interactions between user device 102, remote server104, and travel provider 106. The series of interactions illustrates anexemplary process for facilitating performance of travel-related actionsby user device 102.

The illustrated process is shown to include synchronizingitinerary-specific data and instructions (step 1 a). In step 1 a, userdevice 102 receives the most recent itinerary-specific data from remoteserver 104. In some embodiments, step 1 a is performed each timeitinerary-specific data is updated at remote server 104. Theitinerary-specific data may include data relating to a particular travelitinerary or travel arrangement. For example, the itinerary-specificdata may include a flight number, a reservation number, a confirmationnumber, a flight departure time, departure location, or any otherinformation relating to a particular travel arrangement/itinerary.

In some embodiments, the itinerary-specific data includes data relatingto both a particular user and a particular travel arrangement. Datarelating to a particular user may include general user information whichmay be potentially relevant for more than one travel itinerary. Forexample, user-specific data may include the user's name, logininformation (e.g., for a particular travel website), passportinformation, phone number, emergency contact information, home address,or other information potentially relevant to a plurality of travelarrangements. In some embodiments, the itinerary-specific data includesall the raw information necessary to perform a travel-related action.

In step 1 a, user device 102 also receives instructions for completingthe travel-related action from remote server 104. The instructions forperforming the travel-related action may include a URL of a travelwebpage. The URL may be a URL of a particular webpage of a travelwebsite for initiating the travel-related action.

The instructions for completing the travel-related action may furtherinclude instructions for navigating the travel website. The instructionsfor navigating the travel website may be site-specific instructions(e.g., specific to a particular travel website) and/or action-specificinstructions (e.g., specific to a particular travel-related action). Theinstructions for navigating the travel website may include instructionsfor navigating from the provided URL of the travel webpage to thecompletion of the travel-related action. The instructions for navigatingthe travel website may include a series of web pages required to beloaded and/or a series of actions required to be performed by userdevice 102 to complete the travel-related action.

The instructions for completing the travel-related action may furtherinclude instructions for instructions for automatically providing theitinerary-specific data to the travel website. In some embodiments, theinstructions for providing the itinerary-specific data to the travelwebsite include instructions for automatically populating form fields ofthe travel website with the itinerary-specific information.

In some embodiments, the instructions for completing the travel-relatedaction further include instructions for automatically providinguser-specific data to the travel website or otherwise configuring thewebsite for a particular user. The instructions for automaticallyproviding user-specific data to the travel website may includeinstructions for providing login information to the website.Instructions for configuring the website for a particular user mayinclude instructions for setting language, locale, or other userpreferences when the website is displayed. In some embodiments, theinstructions for providing user-specific data to the travel website orotherwise configuring the website for a particular user may be includedin the itinerary-specific instructions and/or the navigationinstructions.

In some embodiments, the instructions for completing the travel-relatedaction further include instructions for providing a contextual userinterface element (e.g., contextual user interface element 112). Theinstructions for providing a contextual user interface element mayinclude instructions for presenting particular itinerary-specific oruser-specific data elements within contextual user interface element 112when a particular webpage is loaded by user device 102. In someembodiments, the instructions for providing the contextual userinterface element may include logic for determining whether a particulardata element should be displayed. The instructions for providing thecontextual user interface element may further include instructions forinserting a value of a data element into a form field in response to auser input received via user device 102 (e.g., dragging and dropping thedata element into a space occupied by the form field, clicking the dataelement into the form field, etc.).

Still referring to FIG. 3A, the illustrated process is shown to furtherinclude receiving travel website data (step 2 a). Step 2 a may beperformed by user device 102 by retrieving website data from travelprovider 106. In some embodiments, step 2 a may be performed by userdevice 102 in response to a user input received at user device 102(e.g., a user input requesting performance of a travel-related action).In other embodiments, step 2 a may be performed by user device 102 inresponse to receiving itinerary-specific data, instructions, a pushnotification, or any other input from remote server 104. The travelwebsite data may include a series of web pages and one or more formfields requiring input from user device 102.

Still referring to FIG. 3A, the illustrated process is shown to includeloading the travel website data (step 3 a). Step 3 a may be performed byuser device 102 upon receiving the travel website data from travelprovider 106. In some embodiments, step 3 a is performed by a webbrowser embedded in the application running on user device 102. Loadingthe travel website data may include loading unmodified website data(e.g., a standard mobile or non-mobile version of the travel website).

The illustrated process is shown to further include injecting theinstructions into the website data and executing the instructions (step4 a). Step 4 a may be performed by user device 102 upon receiving boththe travel website data from travel provider 106 and the instructionsfrom remote server 104. In some embodiments, step 4 a may be performedby an application (e.g., a mobile application) running on user device102. In some embodiments, the instructions may be JavaScript®instructions and may be inserted into the existing website data asexecutable instructions. Injecting the instructions into the websitedata may create modified website data.

Executing the instructions may include performing actions according tothe instructions. For example, executing the instructions may includeautomatically populating form fields in the travel website data with theitinerary-specific and/or user-specific data. In some embodiments,executing the instructions includes automatically navigating betweenpages of the travel website. In some embodiments, executing theinstructions includes both automatically populating form fields andautomatically navigating between pages of the travel website. Forexample, executing the instructions may cause user device 102 tonavigate to a particular webpage, populate form fields of the webpage,and proceed to navigate to another webpage. By executing theinstructions, user device 102 may automatically perform some or all ofthe operations required to complete the travel-related action.

Still referring to FIG. 3A, the illustrated process is shown to includepresenting a contextual user interface element (step 5 a). Step 5 a maybe performed by user device 102 in addition to or in place of step 4 a.The contextual user interface element (e.g., element 112) may be anelectronic “wallet” including one or more itinerary-specific oruser-specific data elements which may be applied to form fields in thetravel website data. In some embodiments, user device 102 selectsparticular data elements to include in contextual user interface element112 based on the content of the webpage displayed (e.g., HTML content,XML content, metadata content, etc.). In other embodiments, user device102 selects data elements to include in the contextual user interfaceelement using the instructions for providing the contextual userinterface element (e.g., received in step 1 a).

The illustrated process is shown to further include executing additionalinstructions to insert data from the contextual user interface element(step 6 a). Step 6 a may be performed in response to a user inputreceived via a user interface element of user device 102. For example,as described with reference to FIG. 2, a user may drag and drop dataelements from the contextual user interface element into form fields ofthe travel website. Dropping a data element into a space occupied by aform field may cause user device 102 to execute additional instructionsfor automatically inserting the value of the data element into the formfield.

Still referring to FIG. 3A, the illustrated process is shown to furtherinclude providing the completed web forms to travel provider 106 (step 7a). Step 7 a may be performed subsequent to completion of steps 1 a-6 aor may be performed incrementally as user device 102 navigates throughmultiple web pages. In some embodiments, providing the completed webforms to travel provider 106 signifies completion of the travel-relatedaction. In some embodiments, step 7 a may be performed automatically byuser device 102 upon executing the instructions (e.g., in step 4 a).

Referring now to FIG. 3B, an alternate embodiment of the series ofinteractions between user device 102, remote server 104, and travelprovider 106 is shown. The series of interactions illustrates anotherexemplary process for facilitating performance of travel-related actionsby user device 102. The process illustrated in FIG. 3B may be used inplace of or in addition to the process illustrated in FIG. 3A.

The illustrated process is shown to include synchronizingitinerary-specific data (step 1 b). In step 1 b, user device 102 mayretrieve the most recent itinerary-specific data from remote server 104.The itinerary-specific data may include data relating to a particulartravel itinerary or travel arrangement. For example, theitinerary-specific data may include a flight number, a reservationnumber, a confirmation number, a flight departure time, departurelocation, or any other information relating to a particular travelarrangement/itinerary.

In some embodiments, the itinerary-specific data includes data relatingto both a particular user and a particular travel arrangement. Datarelating to a particular user may include general user information whichmay be potentially relevant for more than one travel itinerary. Forexample, user-specific data may include the user's name, logininformation (e.g., for a particular travel website), passportinformation, phone number, emergency contact information, home address,or other information potentially relevant to a plurality of travelarrangements. In some embodiments, the itinerary-specific data includesall the raw information necessary to perform a travel-related action.

Still referring to FIG. 3B, the illustrated process is shown to includerequesting instructions for performing a travel-related action (step 2b). The request for instructions may be sent from user device 102 toremote server 104 in response to a user input received at user device102 requesting performance of a particular travel-related action. Forexample, user device 102 may submit a request for instructions to remoteserver 104 in response to a user selecting an icon presented via userdevice 102 for initiating an online check-in process. The request forinstructions may include an indication of a particular travel itinerary.

The illustrated process is shown to further include preparinginstructions for performing the travel-related action (step 3 b) andproviding the prepared instructions to the user device (step 4 b). Steps3 b-4 b may be performed by remote server 104 in response to a requestfor instructions received from user device 102. The instructions forperforming the travel-related action may include a URL of a travelwebpage. The URL may be a URL of a particular webpage of a travelwebsite for initiating the travel-related action.

The instructions may further include instructions for navigating thetravel website. The instructions for navigating the travel website maybe site-specific instructions (e.g., specific to a particular travelwebsite) and/or action-specific instructions (e.g., specific to aparticular travel-related action). The instructions for navigating thetravel website may include instructions for navigating from the providedURL of the travel webpage to the completion of the travel-relatedaction. The instructions for navigating the travel website may include aseries of web pages required to be loaded and/or a series of actionsrequired to be performed by user device 102 to complete thetravel-related action.

The instructions may further include instructions for instructions forautomatically providing the itinerary-specific data to the travelwebsite. In some embodiments, the instructions for providing theitinerary-specific data to the travel website include instructions forautomatically populating form fields of the travel website with theitinerary-specific information. In other embodiments, the instructionsfor providing the itinerary-specific data to the travel website includeinstructions for generating contextual user interface element 112. Theinstructions for providing the itinerary-specific data to the travelwebsite may include instructions for providing previously-receiveditinerary-specific data (e.g., data received in step 1 b) orinstructions for providing new/updated itinerary-specific data (e.g.,included in the instructions, received from other sources, etc.).

In some embodiments, the instructions further include instructions forautomatically providing user-specific data to the travel website orotherwise configuring the website for a particular user. Theinstructions for automatically providing user-specific data to thetravel website may include instructions for providing login informationto the website. Instructions for configuring the website for aparticular user may include instructions for setting language, locale,or other user preferences when the website is displayed. In someembodiments, the instructions for providing user-specific data to thetravel website or otherwise configuring the website for a particularuser may be included in the itinerary-specific instructions and/or thenavigation instructions.

In some embodiments, the instructions further include instructions forproviding a contextual user interface element (e.g., contextual userinterface element 112). The instructions for providing a contextual userinterface element may include instructions for presenting particularitinerary-specific or user-specific data elements within contextual userinterface element 112 when a particular webpage is loaded by user device102. In some embodiments, the instructions for providing the contextualuser interface element may include logic for determining whether aparticular data element should be displayed. The instructions forproviding the contextual user interface element may further includeinstructions for inserting a value of a data element into a form fieldin response to a user input received via user device 102 (e.g., draggingand dropping the data element into a space occupied by the form field,clicking the data element into the form field, etc.).

Still referring to FIG. 3B, the illustrated process is shown to furtherinclude receiving travel website data (step 5 b). Step 5 b may beperformed by user device 102 by retrieving website data from travelprovider 106. In some embodiments, step 5 b may be performed by userdevice 102 in response to a user input received at user device 102. Inother embodiments, step 5 b may be performed by user device 102 inresponse to receiving instructions from remote server 104. The travelwebsite data may include a series of web pages and one or more formfields requiring input from user device 102.

The illustrated process is shown to further include injecting theinstructions into the website data (step 6 b). Step 6 b may be performedby user device 102 upon receiving both the travel website data fromtravel provider 106 and the instructions from remote server 104. In someembodiments, step 6 b may be performed by an application (e.g., a mobileapplication) running on user device 102. In some embodiments, theinstructions may be JavaScript® instructions and may be inserted intothe existing website data as executable instructions. Injecting theinstructions into the website data may create modified website data.

Still referring to FIG. 3B, the illustrated process is shown to includeloading the travel website data and executing the instructions (step 7b). Step 7 b may be performed by user device 102 upon receiving both thetravel website data from travel provider 106 and the instructions fromremote server 104. In some embodiments, step 7 b may be performed by aweb browser embedded in the application running on user device 102.Loading the travel website data may include loading the unmodifiedwebsite data (e.g., the data received in step 5 b) or loading themodified website data (e.g., the data created in step 6 b).

Executing the instructions may include performing actions according tothe instructions. For example, executing the instructions may includeautomatically populating form fields in the travel website data with theitinerary-specific and/or user-specific data. In some embodiments,executing the instructions includes automatically navigating betweenpages of the travel website. In some embodiments, executing theinstructions includes both automatically populating form fields andautomatically navigating between pages of the travel website. Forexample, executing the instructions may cause user device 102 tonavigate to a particular webpage, populate form fields of the webpage,and proceed to navigate to another webpage. By executing theinstructions, user device 102 may automatically perform some or all ofthe operations required to complete the travel-related action.

Still referring to FIG. 3B, the illustrated process is shown to includepresenting a contextual user interface element (step 8 b). Step 8 b maybe performed by user device 102 in addition to or in place of step 7 b.The contextual user interface element (e.g., element 112) may be anelectronic “wallet” including one or more itinerary-specific oruser-specific data elements which may be applied to form fields in thetravel website data. In some embodiments, user device 102 selectsparticular data elements to include in contextual user interface element112 based on the content of the webpage displayed (e.g., HTML content,XML content, metadata content, etc.). In other embodiments, user deviceselects data elements to include in the contextual user interfaceelement using the instructions for providing the contextual userinterface element (e.g., received in step 4 b).

The illustrated process is shown to further include executing additionalinstructions to insert data from the contextual user interface element(step 9 b). Step 9 b may be performed in response to a user inputreceived via a user interface element of user device 102. For example,as described with reference to FIG. 2, a user may drag and drop dataelements from the contextual user interface element into form fields ofthe travel website. Dropping a data element into a space occupied by aform field may cause user device 102 to execute additional instructionsfor automatically inserting the value of the data element into the formfield.

Still referring to FIG. 3B, the illustrated process is shown to furtherinclude providing the completed web forms to travel provider 106 (step10 b). Step 10 b may be performed subsequent to completion of steps 1b-9 b or may be performed incrementally as user device 102 navigatesbetween web pages. In some embodiments, providing the completed webforms to travel provider 106 signifies completion of the travel-relatedaction. In some embodiments, step 10 b may be performed automatically byuser device 102 upon executing the instructions (e.g., in step 7 b).

Referring now to FIG. 4, a detailed block diagram of remote server 104is shown, according to an exemplary embodiment. Remote server 104 isshown to include a communications interface 150 and a processing circuit160. Communications interface 150 may include wired or wirelessinterfaces (e.g., jacks, antennas, transmitters, receivers,transceivers, wire terminals, Ethernet ports, WiFi transceivers, etc.)for conducting data communications with local or remote devices orsystems. For example, communications interface 150 may allow remoteserver 104 to communicate with user device 102 and travel provider 106.

Still referring to FIG. 4, processing circuit 160 is shown to include aprocessor 162 and memory 164. Processor 162 may be implemented as ageneral purpose processor, an application specific integrated circuit(ASIC), one or more field programmable gate arrays (FPGAs), a CPU, aGPU, a group of processing components, or other suitable electronicprocessing components.

Memory 164 may include one or more devices (e.g., RAM, ROM, Flash®memory, hard disk storage, etc.) for storing data. For example, memory164 is shown to include a user information database 182, an itinerarydatabase 184, and a site navigation database 186. Databases 182-186 maybe any type of memory device capable of user profile data,itinerary-specific data, site navigation data, or any other type of dataused by remote server 104 and/or user device 102. Databases 182-186 mayinclude any type of non-volatile memory, media, or memory devices. Forexample, databases 182-186 may include semiconductor memory devices(e.g., EPROM, EEPROM, flash memory devices, etc.) magnetic disks (e.g.,internal hard disks, removable disks, etc.), magneto-optical disks,and/or CD-ROM and DVD-ROM disks. In some embodiments, databases 182-186may be local to remote server 104. In other embodiments, databases182-186 may be remote data storage devices connected with remote server104 via a computer network (e.g., a LAN, WAN, the Internet, etc.). Insome embodiments, databases 182-186 may be part of a data storage serveror system capable of receiving and responding to queries forinformation.

Memory 164 may include one or more devices for completing and/orfacilitating the various processes, layers, and modules described in thepresent disclosure. Memory 164 may comprise volatile memory ornon-volatile memory. Memory 164 may include database components, objectcode components, script components, or any other type of informationstructure for supporting the various activities and informationstructures described in the present disclosure. In some implementations,memory 164 is communicably connected to processor 162 via processingcircuit 160 and includes computer code (e.g., data modules stored inmemory 164) for executing one or more processes described herein.

Still referring to FIG. 4, memory 164 is shown to include a userinformation module 166. User information module 166 may be responsiblefor receiving and managing user-specific data. User information module166 may receive user-specific data from user device 102 or other datasources and may store the user-specific data in user informationdatabase 182. User information module 166 may be responsible writinguser-specific information to user information database 182 and readinguser-specific information from user information database 182.User-specific data may include general user data that is not limited toa single travel itinerary (e.g., user profile data, user preferences,etc.). For example, user specific data may include a user's name,telephone number, home address, preferred language, travel preferences,billing information, account login information, or other informationthat may apply to a plurality of travel itineraries.

Still referring to FIG. 4, memory 164 is shown to further include anitinerary management module 168. Itinerary management module 168 may beresponsible for receiving, managing, and updating itinerary-specificdata. Itinerary management module 168 may receive itinerary-specificinformation from user device 102 or other data sources and may storeitinerary-specific data in itinerary database 184. Itinerary managementmodule 168 may be responsible writing itinerary-specific information toitinerary database 184 and reading itinerary-specific information fromitinerary database 184. Itinerary-specific data may include datarelating to particular travel arrangements. For example, when a userpurchases a flight ticket, information relating to the travelarrangement (e.g., flight number, reservation number, departure time,departure location, passenger name, etc.) may provided to itinerarymanagement module 168 and stored in itinerary database 184.

In some embodiments, itinerary management module 168 interacts withtravel provider 106 to retrieve detailed information relating to varioustravel arrangements and updates the itinerary-specific data in itinerarydatabase 184 if any of the itinerary details change. In someembodiments, itinerary-specific data includes data relating to both aparticular user and a particular travel arrangement. In other words,itinerary-specific data may include user-specific data. In someembodiments, the itinerary-specific data includes all the rawinformation necessary to perform a travel-related action.

Itinerary management module 168 may be configured to synchronizeitinerary data with user device 102 in response to a synchronizationrequest from user device 102. Itinerary management module 168 mayprepare updated itinerary data in response to the synchronizationrequest and send the updated itinerary data (e.g., via communicationsinterface 150) to user device 102.

Still referring to FIG. 4, memory 164 is shown to further include a sitenavigation module 170. Site navigation module 170 may be responsible forreceiving, managing, and updating site-specific navigation data. Sitenavigation module 170 may receive site-specific navigation data fromvarious travel providers and/or travel websites and store thesite-specific navigation data in site navigation database 186. Sitenavigation module 170 may be responsible writing site-specificnavigation data to site navigation database 186 and readingsite-specific navigation data from site navigation database 186.

In some embodiments, site-specific navigation data includes datadescribing a sequence of steps required to perform a travel-relatedaction for a particular travel website. For example, a particular travelwebsite may require a user to login at a first webpage, enter aconfirmation number at a second webpage, and finally click aconfirmation button at a third web page. The site-specific navigationdata may provide navigation logic for performing a particulartravel-related action at a particular travel website. Site-specificnavigation data may be extracted from travel websites, provided bytravel provider 106, or otherwise obtained from any other data source.

In some embodiments, site navigation module 170 manages a database ofURLs for performing various travel-related actions. The URLs mayindicate a particular webpage of a travel website for initiating aparticular travel-related action. For example, within a travel websiteoperated by an airline, the URL of the webpage for checking-in for aflight may be different than the URL of the webpage for changing adeparture time or cancelling a flight reservation. Site navigationmodule 170 may maintain a list of direct URLs to the specific web pagesfor performing travel-related actions. Site navigation module 170 maystore the URLs and the associated travel-related actions in sitenavigation database 186. In some embodiments, site navigation module 170provides a URL to user device 102 in response to a request forinstructions for completing a travel-related action. The URL may be adirect link to the exact webpage for completing the requestedtravel-related action.

Still referring to FIG. 4, memory 164 is shown to include a datasynchronization module 172. Data synchronization module 172 may beconfigured synchronize itinerary-specific data and instructions forperforming a travel-related action with user device 102. Synchronizingitinerary-specific data and instructions may include sending updateditinerary data and/or instructions to user device 102. In someembodiments, data synchronization module 172 synchronizes an itinerarywith user device 102 when an itinerary item is changed. Datasynchronization module 172 may interact with itinerary management module168 to determine whether an itinerary has been changed. Datasynchronization module 172 may interact with site navigation module 170to determine the information required by the identified travel websitefor completing the travel-related action.

In some embodiments, data synchronization module 172 determines whetherthe identified travel website is a supported website for automaticallypopulating form fields. If the travel website is supported, datasynchronization module 172 may determine that it is unnecessary toprepare instructions for presenting contextual user interface element112. However, if the travel website is unsupported, data synchronizationmodule 172 may determine that instructions for presenting contextualuser interface element 112 should be prepared.

Data synchronization module 172 may identify the information necessaryto complete a travel-related action and interact with user informationmodule 166, itinerary management module 168, and/or site navigationmodule 170 to obtain the required information. Data synchronizationmodule 172 may call one or more of user-specific instructions module174, itinerary-specific instructions module 176, navigation instructionsmodule 178, and contextual user interface element instructions module180 to prepare instructions for performing the travel-related action.

Still referring to FIG. 4, memory 164 is shown to include auser-specific instructions module 174. User-specific instructions module174 may be configured to generate instructions for providinguser-specific information to a travel website. User-specificinstructions module 174 may interact with data synchronization module172 to identify the particular items of user-specific information forwhich instructions are required. User-specific instructions module 174may generate instructions for providing the identified user-specificinformation from user device 102 to the travel website. In someembodiments, user-specific instructions may include instructions forautomatically populating form fields of the travel website withuser-specific data. The user-specific data may be data already stored onuser device 102 or data communicated to user device 102 along with therequested instructions.

Memory 164 is shown to further include an itinerary-specificinstructions module 176. Itinerary-specific instructions module 176 maybe configured to generate instructions for providing itinerary-specificinformation to a travel website. Itinerary-specific instructions module176 may interact with data synchronization module 172 to identify theparticular items of itinerary-specific information for whichinstructions are required.

Itinerary-specific instructions module 176 may generate instructions forproviding the identified itinerary-specific information from user device102 to the travel website. In some embodiments, the itinerary-specificinstructions may include instructions for populating form fields of thetravel website with itinerary-specific data. The itinerary-specific dataused to populate the form fields may be data already stored on userdevice 102 (e.g., in response to a synchronization request) or datacommunicated to user device 102 along with the requested instructions.

Still referring to FIG. 4, memory 164 is shown to include a navigationinstructions module 178. Navigation instructions module 178 may beconfigured to generate instructions for navigating a travel website.Advantageously, the navigation instructions may be site-specificinstructions relating to a particular travel website. The navigationinstructions may include a URL of a webpage for initiating thetravel-related action as well as a sequence of steps or actionsnecessary to complete the travel-related action. For example, aparticular travel website may require a user to login at a firstwebpage, enter a confirmation number at a second webpage, and finallyclick a confirmation button at a third web page.

Navigation instructions module 178 may generate instructions fornavigating from a webpage associated with the provided URL to a finalwebpage for completing the travel-related action. In some embodiments,the navigation instructions include multiple lines of computer code forautomatically populating form fields of the travel website. In someembodiments, the navigation instructions include multiple lines ofcomputer code for automatically following hyperlinks within the travelwebsite for advancing to another webpage (e.g., the next webpage in thechain of web pages which must be completed/loaded for performing thetravel-related action) or submitting the populated data to the travelprovider.

Still referring to FIG. 4, memory 164 is shown to include a contextualuser interface element instructions module 180. Contextual userinterface element instructions module 180 may be configured to generateinstructions for presenting contextual user interface element 112.Instructions for presenting contextual user interface element 112 mayinclude instructions for selecting particular data elements to includein contextual user interface element 112. In some embodiments, theinstructions include selection logic based on the content of the webpagedisplayed (e.g., HTML content, XML content, metadata content, etc.). Inother embodiments, the instructions may include instructions to presentspecific data elements when a particular webpage is displayed.

Contextual user interface element instructions module 180 may generateinstructions for inserting data from contextual user interface element112 into an identified form field of the travel website. For example, asdescribed with reference to FIG. 2, a user may drag and drop dataelements from contextual user interface element 112 into form fields ofthe travel website. Contextual user interface element instructionsmodule 180 may generate instructions specifying that when a data elementis dragged from contextual user interface element 112 into a spaceoccupied by a form field, the value of the data element should beautomatically inserted into the form field.

Referring now to FIG. 5, a detailed block diagram of user device 102 isshown, according to an exemplary embodiment. User device 102 is shown toinclude communications interface 152, user interface devices 154, and aprocessing circuit 190. Communications interface 152 may include wiredor wireless interfaces (e.g., jacks, antennas, transmitters, receivers,transceivers, wire terminals, Ethernet ports, WiFi transceivers, etc.)for conducting data communications with local or remote devices orsystems. For example, communications interface 152 may allow user device102 to communicate with remote server 104 and/or travel provider 106.Communications interface 152 may allow user device 102 to communicatewith a wireless networking device (e.g., a wireless router,wireless-enabled computer, laptop, tablet, cell tower, etc.) or a wirednetworking device (e.g., via an Ethernet cable, a SATA cable, USB cable,or other physical data connection).

User interface devices 154 may include one or more user input devices(e.g., for receiving input from a user) and one or more user outputdevices (e.g., for presenting information to a user). User input devicesmay include devices that utilize touch-sensitive technology (e.g.,capacitive touch, piezoelectric, etc.) field-of-effect technology (e.g.,projected capacitive, electrostatic, etc.), as well as traditional inputdevices (e.g., keyboard, mouse, microphone, etc.). Input devices mayinclude one or more buttons, keys, dials, sliders, microphones, or otherelements capable of receiving tactile input from a user.

User output devices may further include an electronic display (e.g., aliquid crystal display (LCD), organic light emitting diode (OLED), thinfilm transmitter (TFT), or other monitor capable of displayinginformation or providing visual feedback to a user). In someembodiments, user output devices include a touch-sensitive displaycapable of both displaying information and receiving a user's touchinput. In some embodiments, user input devices and user output devicesare combined into an integrated touch-sensitive display device.

Still referring to FIG. 5, processing circuit 190 is shown to include aprocessor 192 and memory 194. Processor 192 may be implemented as ageneral purpose processor, an application specific integrated circuit(ASIC), one or more field programmable gate arrays (FPGAs), a CPU, aGPU, a group of processing components, or other suitable electronicprocessing components.

Memory 194 may include one or more devices (e.g., RAM, ROM, Flash®memory, hard disk storage, etc.) for storing data and/or computer codefor completing and/or facilitating the various processes, layers, andmodules described in the present disclosure. Memory 194 may comprisevolatile memory or non-volatile memory. Memory 194 may include databasecomponents, object code components, script components, or any other typeof information structure for supporting the various activities andinformation structures described in the present disclosure. In someimplementations, memory 194 is communicably connected to processor 192via processing circuit 190 and includes computer code (e.g., datamodules stored in memory 194) for executing one or more processesdescribed herein.

In brief overview, memory 194 is shown to include a user interfacemodule 196, a data synchronization module 198, an instruction requestmodule 200, an instruction injection module 202, a web browser module204, a contextual user interface element module 206, a navigation module208, and a form filling module 210. Some or all of memory modules196-210 may be part of an application configured to run on user device102 (e.g., a mobile application).

User interface module 196 may be configured to generate a user interfacefor presentation to a user via user interface devices 154.Advantageously, user interface module 196 may present a singleuser-friendly interface for interacting with many different travelwebsites without requiring a user to learn the interfaces associatedwith a variety of different travel websites. In some embodiments, userinterface module 196 generates a user interface for presentingitinerary-specific information. User interface module 196 may create auser interface including one or more selectable options (e.g., buttons,icons, tiles, etc.) for initiating a travel-related action. An exemplaryuser interface which may be generated by user interface module 196 isdescribed in greater detail with reference to FIG. 6.

Still referring to FIG. 5, memory 194 is shown to include a datasynchronization module 198. Data synchronization module 198 may beconfigured to retrieve updated data from remote server 104. Updated datamay include itinerary-specific data, user-specific data, or othertravel-related data managed by remote server 104. In some embodiments,data synchronization module 198 submits a request for updated data inresponse to a user input received via user interface devices 154. Inother embodiments, data synchronization module 198 submits a request forupdated data periodically, automatically, or in response to anotherupdate trigger (e.g., launching a mobile application, viewing itinerarydata for a particular travel arrangement, etc.). Data synchronizationmodule 198 may receive itinerary-specific data from remote server 104and store the itinerary-specific data within memory 194.

In some embodiments, data synchronization module may be configured toreceive instructions from remote server 104. The instructions mayinclude instructions for performing the travel-related action. Theinstructions for performing the travel-related action may be receivedfrom remote server 104 as part of the data synchronization.

Memory 194 is shown to further include an instruction request module200. Instruction request module 200 may be configured to submit arequest for instructions for performing a travel-related action toremote server 104. In some embodiments, instruction request module 200is not necessary because the instructions may have already been receivedas part of a prior data synchronization. In other embodiments,instruction request module 200 may submit a request for instructions toremote server 104 in response to a user input received via userinterface devices 154 requesting performance of a travel-related action.For example, user interface module 196 may generate a user interfaceincluding a selectable icon labeled “Flight check-in available.”Instruction request module 200 may submit a request for instructions forperforming the flight check-in in response to a user selection of theselectable icon.

In some embodiments, the request for instructions includes an indicationof a particular travel arrangement and/or an indication of theparticular travel-related action for which instructions are requested.Remote server 104 may use the indication of the particular travelarrangement and/or the indication of the particular travel-relatedaction to generate a set of instructions for performing thetravel-related action. Remote server may provide the requestedinstructions to user device 102.

Still referring to FIG. 5, memory 194 is shown to include a web browsermodule 204. Web browser module 204 may include instructions forexecuting a web browser on user device 102. In some embodiments, the webbrowser may be embedded within a mobile application running on userdevice 102. Web browser module 204 may receive the requestedinstructions from remote server 104. In some embodiments, theinstructions include one or more URLs specifying the locations of webpages for performing the travel-related action. Web browser module 204may be configured to download one or more web pages (i.e., website data)from a travel website using the URL information provided in theinstructions.

Memory 194 is shown to further include an instruction injection module202. Instruction injection module 202 may receive the requestedinstructions from remote server 104. Instruction injection module 202may also receive the downloaded website data (i.e., “existing websitedata”) from the travel website. The website data may include one or morewebsite files (e.g., .htm files, etc.) which can be loaded by webbrowser module 204. Instruction injection module 202 may create amodified website file by injecting by injecting the instructions into anexisting website file. In some embodiments, the modified website fileincludes one or more form fields pre-populated with itinerary-specificand/or user-specific data. In some embodiments, the instructions areJavaScript® instructions. Injecting the instructions into the websitefile may include inserting the instructions into the existing websitefile as executable instructions.

Instruction injection module may provide the modified website file toweb browser module 204. Web browser module 204 may be configured to loadthe modified website file including the executable instructions injectedtherein. Loading the modified website file may cause web browser 204 toexecute the injected instructions and perform operations according tothe injected instructions. In some embodiments, the instructions includemultiple lines of computer code for automatically navigating betweenpages of the travel website, instructions for automatically filling formfields of the travel website and/or instructions for presentingcontextual user interface element 112 along with the existing websitedata. In some embodiments, the instructions are executed by web browsermodule 204 and it is web browser module 204 that performs the operationsaccording to the instructions. In other embodiments, the instructionsare executed by a separate data module of memory 194.

Still referring to FIG. 5, memory 194 is shown to include a contextualuser interface element module 206, a navigation module 208, and aform-filling module 210. Modules 206-210 may be configured to executethe instructions received from remote server 104. In some embodiments,modules 206-210 may be components of web browser module 204. In otherembodiments, modules 206-210 may be conceptually or functionallyseparate data modules. For example, modules 206-210 may be modules of anapplication running on device 102 (e.g., a mobile application) intowhich the web browser is embedded. In some embodiments, modules 206-210execute instructions which have been injected into existing website data(e.g., by instruction injection module 202). In other embodiments,modules 206-210 execute the instructions received from remote server 104without requiring that the instructions be injected into website data.

Navigation module 208 may be configured to execute instructions fornavigating a travel website. In some embodiments, the instructions fornavigating a travel website are site-specific instructions relating to aparticular travel website. The navigation instructions may include a URLof a webpage for initiating the travel-related action as well as asequence of steps or actions necessary to complete the travel-relatedaction. For example, a particular travel website may require a user tologin at a first webpage, enter a confirmation number at a secondwebpage, and finally click a confirmation button at a third web page.

Navigation module 208 may execute instructions for navigating from awebpage associated with the provided URL to a final webpage forcompleting the travel-related action. In some embodiments, navigationmodule 208 causes web browser module 204 to automatically followhyperlinks within the travel website for advancing to another webpage(e.g., the next webpage in the chain of web pages which must becompleted/loaded for performing the travel-related action) or submittingthe data (e.g., populated web forms) to a travel provider.

Form-filling module 210 may be configured to execute instructions forautomatically populating form fields of the travel website withitinerary-specific data and/or user-specific data. Form-filing module210 may populate form fields with user-specific and/oritinerary-specific data included in the instructions received fromremote server 104 or with data previously stored on user device 102(e.g., by data synchronization module 198). In some embodiments,form-filling module populates form fields according to literalinstructions received from remote server 104. In other embodiments,form-filling module 210 populates form fields according to independentform-filling logic (e.g., in place of or in addition to the instructionsreceived from remote server 104). For example, form-filling module 210may identify form fields based on the content of the website data (e.g.,metadata, HTML data, etc.) and automatically fill identified form fieldswith itinerary-specific or user-specific data designated for anidentified form field.

Still referring to FIG. 5, memory 194 is shown to include a contextualuser interface element module 206. Contextual user interface elementmodule 206 may be configured to present a contextual user interfaceelement (e.g., contextual user interface element 112) along with thewebsite data. Contextual user interface element 112 may include one ormore of the itinerary-specific data received from remote server 104.Advantageously, contextual user interface element module 206 may be usedto display itinerary-specific data in a format that can be easilyapplied to form fields in the travel website when automatic populationis unavailable (e.g., for unsupported or recently-changed websites).

In some embodiments some embodiments, contextual user interface elementmodule 206 may be configured to display data elements relevant to aparticular web page. Contextual user interface element module 206 maydetermine which data elements are relevant to a particular web pagebased on the content of the web page data (e.g., HTML data, XML data,form field names, etc.). Contextual user interface element module 206may add, remove, re-organize, or otherwise adjust the data elementspresented in contextual user interface element 112 based on the contextprovided by the web page data. For example, as user device 102 navigatesfrom page to page (e.g., automatically or in response to a user input),contextual user interface element module 206 may adjust the dataelements displayed in contextual user interface element 112. In someembodiments, contextual user interface element module 206 identifiesitinerary-specific data elements corresponding to the form fields in theweb page (e.g., based on the content of the web page) and presents theidentified data elements in contextual user interface element 112.

In some embodiments, contextual user interface element module 206executes instructions generated by remote server 104 (e.g., bycontextual user interface element instructions module 180) forpresenting contextual user interface element 112. Instructions forpresenting contextual user interface element 112 may includeinstructions for selecting particular data elements to include incontextual user interface element 112. In some embodiments, theinstructions include selection logic based on the content of the webpagedisplayed. In other embodiments, the instructions specify particulardata elements to present when a particular webpage is displayed.

Contextual user interface element module 206 may be configured toexecute additional instructions to insert data from contextual userinterface element 112 into a form field of the travel website. Forexample, as described with reference to FIG. 2, a user may drag and dropdata elements from contextual user interface element 112 into formfields of the travel website. Dropping a data element into a spaceoccupied by a form field may cause contextual user interface elementmodule 206 to execute additional instructions for automaticallyinserting the value of the data element into the form field.

Referring now to FIG. 6, a drawing of a user interface 300 which may begenerated by user interface module 196 is shown, according to anexemplary embodiment. User interface 300 may be presented via a userinterface element (e.g., user interface devices 154) of user device 102.Advantageously, user interface 300 may be used to facilitate userinteractions with many different travel websites, thereby eliminatingthe need for users to learn and navigate multiple different userinterfaces for each new travel website.

User interface 300 is shown to include itinerary-specific information302. Itinerary-specific information 302 may be received from remoteserver 104 in response to a request for itinerary synchronization fromdata synchronization module 198. As illustrated in FIG. 6,itinerary-specific information may include information relating to aparticular flight. For example, itinerary-specific information 302 isshown to include a flight name (e.g., “AA 1”), an airline name (e.g.,“American Airlines”), a departure location (e.g., “New York (JFK)”), anarrival location (e.g., “Los Angeles (LAX)”), a terminal “e.g.,“Terminal: 8”), and a departure time (e.g., “9:00 AM”).

User interface 300 is shown to further include a selectable icon 304.Selectable icon 304 may be displayed when a travel-related action isavailable to be performed. For example, online check-in for a particularflight may become available one hour before the flight departure time.User device 102 may receive a notification from remote server 104 or mayindependently determine that online flight check-in is available whenthe current time is within the one hour window before the flightdeparture time. In response to a determination (e.g., by remote server104 or by user device 102) that a travel-related action is available,selectable icon 304 may be displayed within user interface 300.

Selectable icon 304 is shown displaying an indication of thetravel-related action (e.g., “Flight check-in”) associated withselectable icon 304. Selecting selectable icon 304 (e.g., tapping,clicking, etc.) may cause user device 102 to submit a request forinstructions for performing the associated travel-related action.Additionally, selecting selectable icon 304 may cause user device 102(e.g., a web browser running on user device 102) to navigate directly toa webpage through which the associated travel-related action may beperformed. For example, selecting selectable icon 304 may cause userdevice 102 to navigate to a webpage for performing online check-in forthe flight identified by itinerary-specific information 302.

Referring now to FIGS. 7-12, a user interface 400 for presentingitinerary-specific data in a contextual user interface element is shown,according to an exemplary embodiment. In some embodiments, userinterface 400 is presented in response to a user selecting selectableicon 304 in user interface 300. User interface 400 may be presented byuser device 102 (e.g., via user interface devices 154) and may begenerated by an application running on user device 102 (e.g., bycontextual user interface element module 206).

User interface 400 may be presented concurrently with one or more webpages of a travel website through which a travel-related action can beperformed. For example, referring specifically to FIG. 7, user interface400 is shown overlaid with a webpage through which a user can check-infor a flight. The webpage may be displayed by user device 102 (e.g., viaweb browser module 204) in response to a user selection of selectableicon 304 (e.g., via user interface 300). In some implementations, thewebpage includes one or more form fields which must be completed toperform the travel-related action. For example, the webpage is shown toinclude a “Last Name” form field 404 and a “Reservation #” form field406.

Still referring to FIG. 7, user interface 400 is shown to include aninformation box 402. Information box 402 may display a current status ofa data fetching process. For example, information box 402 may bedisplayed while user device 102 is retrieving the itinerary-specific oruser-specific data from remote server 104.

Referring now to FIG. 8, user interface 400 is shown to include acontextual user interface element 408. Contextual user interface element408 may be displayed after the itinerary-specific or user-specific datais received at user device 102. Contextual user interface element 408 isshown to include a plurality of data elements 410-416. Data elements410-416 may correspond to particular items of the itinerary-specificdata (e.g., flight confirmation number, departure airport, reservationnumber, etc.). In some embodiments, data elements displayed incontextual user interface element 408 include an indication of the typeof data element (e.g., data element name, description, title, etc.) anda value of the data element. For example, the value of “Reservation #”data element 414 is shown as “BQCLW.” Advantageously, contextual userinterface element 408 can be used to display itinerary-specific data ina format that can be easily applied to form fields in the travel websitewhen automatic population is unavailable.

In some embodiments, user interface 400 may be configured to displaydata elements in contextual user interface element 408 which arerelevant the webpage being concurrently displayed. User device 102 maydetermine which data elements are relevant to a particular web pagebased on the content of the web page data (e.g., HTML data, XML data,metadata, form field names, etc.) or based on instructions/logicreceived from remote server 104. User device 102 may add, remove,re-organize, or otherwise adjust the data elements presented incontextual user interface element 408 when a new webpage is loaded.

User interface 400 is shown to further include a toggle button 418.Selecting toggle button 418 (e.g., tapping, clicking, etc.) may causecontextual user interface element 408 to be displayed (e.g., as shown inFIGS. 8-11) or hidden (e.g., as shown in FIG. 12).

Referring now to FIG. 9, in some embodiments, user interface 400presents the data elements displayed in contextual user interfaceelement 408 as selectable icons. A user may select a data element bytapping, clicking, highlighting, or otherwise interacting with theselectable icon associated with the data element. For example, a usermay select “Reservation #” data element 414 by tapping or clicking anarea within the selectable icon (e.g., at click/tap location 420). Insome embodiments, selecting an icon may cause the icon to change colors,become highlighted, emphasized, bolded, outlined, or otherwise marked ashaving been selected.

Referring now to FIG. 10, in some embodiments, user interface 400presents the data elements displayed in contextual user interfaceelement 408 as movable icons. A user may move an icon by dragging theicon from its original location within contextual user interface element408 to another location within user interface 400 (e.g., inside oroutside contextual user interface element 408). In some embodiments,user interface 400 presents contextual user interface element 408 as avariable-transparency window. For example, when an icon is moved out ofcontextual user interface element 408 (e.g., as shown in FIG. 10), userinterface 400 may cause contextual user interface element 408 to appeartranslucent or transparent. Advantageously, increasing the transparencyof contextual user interface element 408 may allow a user to see anytext or form fields which may be hidden under contextual user interfaceelement 408.

Referring now to FIG. 11, user interface 400 may allow data elementswhich have been dragged out of contextual user interface element 408 tobe dropped into one or more form fields of the web page. For example,data element 414 can be dragged to an area occupied by “Reservation #”form field 406 and dropped into form field 406 (e.g., by releasing amouse button, removing a finger from a touch screen, etc.).Advantageously, dragging and dropping a data element into a form fieldmay cause the value of the data element to be copied into the formfield.

Referring now to FIG. 12, user interface 400 is shown displaying thevalue of “Reservation #” data element 414 (e.g., “BQCLW”) in form field406. The value of data element 414 may be automatically copied into formfield 406 in response to a user dragging and dropping data element 414into a space occupied by form field 406. This automatic copying mayallow a user to quickly and easily complete any required web formswithout manually entering the itinerary-specific data.

Referring now to FIG. 13, a flowchart of a process 500 for synchronizingitinerary-specific data and preparing/synchronizing instructions forperforming a travel-related action is shown, according to an exemplaryembodiment. Process 500 may be performed by remote server 104 usingprocessing circuit 160 and one or more memory modules contained therein(e.g., memory modules 166-180).

Process 500 is shown to initiating synchronization of itinerary-specificdata and instructions for performing a travel-related action (step 502).In some embodiments, the itinerary-specific data relates to a particulartravel itinerary. In some implementations, step 502 is performed by datasynchronization module 172. Data synchronization module 172 may interactwith itinerary management module 168 and site navigation module 170 toidentify the itinerary-specific data and determine the informationnecessary to prepare the instructions. In some embodiments, thetravel-related action may be based on the particular travel itinerary.In some embodiments, step 502 includes identifying a travel websitethrough which the travel-related action will be performed.Synchronization may be initiated in response to a change in theitinerary-specific data stored at remote server 104 (e.g., in itinerarydatabase 184).

In some embodiments, step 502 includes determining whether theidentified travel website is a supported website for automaticallypopulating form fields. If the travel website is supported, it may beunnecessary to prepare instructions for presenting contextual userinterface element 112. However, if the travel website is unsupported,step 502 may include determining that instructions for presentingcontextual user interface element 112 should be prepared.

In some embodiments, step 502 includes identifying the informationnecessary to complete the travel-related action. Travel-related actionsmay include checking-in for a flight or a hotel, creating new travelarrangements, confirming or changing existing travel arrangements,canceling travel arrangements, or other types of interactions between auser and a travel provider. Data synchronization module 172 may interactwith user information module 166, itinerary management module 168,and/or site navigation module 170 to obtain the required information.

Still referring to FIG. 13, process 500 is shown to include retrievingitinerary-specific data relating to the particular travel itinerary(step 504). In some implementations, step 504 may be performed byitinerary management module 168. The itinerary-specific data may beretrieved from an itinerary database (e.g., itinerary database 184).Itinerary-specific data may include data relating to particular travelarrangements. For example, when a user purchases a flight ticket,information relating to the travel arrangement (e.g., flight number,reservation number, departure time, departure location, passenger name,etc.) may provided to itinerary management module 168 and stored initinerary database 184.

In some embodiments, step 504 includes interacting with travel provider106 to retrieve detailed information relating to various travelarrangements. In some embodiments, itinerary-specific data includes datarelating to both a particular user and a particular travel arrangement.In other words, itinerary-specific data may include user-specific data.In some embodiments, the itinerary-specific data includes all the rawinformation necessary to perform a travel-related action.

Still referring to FIG. 13, process 500 is shown to include identifyinginformation for accessing a travel website for performing thetravel-related action (step 506). In some implementations, step 506 isperformed by site navigation module 170. The website for performing thetravel-related action may be a website operated by a travel providerthrough which the travel-related action may be performed.

The information for accessing the travel website may be a URL of aspecific webpage of the travel website. The URL may indicate aparticular webpage of a travel website for initiating a particulartravel-related action. For example, within a travel website operated byan airline, the URL of the webpage for checking-in for a flight may bedifferent than the URL of the webpage for changing a departure time orcancelling a flight reservation. In some embodiments, step 506 includesaccessing a list of direct URLs to the specific web pages for performingtravel-related actions. The list of direct URLs and the associatedtravel-related actions may be retrieved from site navigation database186.

Still referring to FIG. 13, process 500 is shown to include generatinginstructions for performing the travel-related action (step 508). Theinstructions may include multiple lines of computer code forautomatically navigating the identified travel website and multiplelines of computer code for automatically providing theitinerary-specific data to the travel website. In some implementations,step 508 is performed by navigation instructions module 178 and oritinerary-specific instructions module 176. In some embodiments, step508 includes interacting with data synchronization module 172 toidentify the particular items of itinerary-specific data for whichinstructions are required.

In some embodiments, the instructions include multiple lines of computercode for populating form fields of the travel website withitinerary-specific data. The itinerary-specific data used to populatethe form fields may be data already stored on user device 102 (e.g., inresponse to a synchronization request) or data communicated to userdevice 102 along with the requested instructions.

In some embodiments, the instructions include multiple lines of computercode for navigating from a webpage associated with the provided URL to afinal webpage for completing the travel-related action. The multiplelines of computer code for automatically navigating the identifiedtravel website may be site-specific instructions relating to aparticular travel website. The navigation instructions may include a URLof a webpage for initiating the travel-related action as well as asequence of steps or actions necessary to complete the travel-relatedaction. For example, a particular travel website may require a user tologin at a first webpage, enter a confirmation number at a secondwebpage, and finally click a confirmation button at a third web page.

In some embodiments, the navigation instructions include multiple linesof computer code for automatically following hyperlinks within thetravel website for advancing to another webpage (e.g., the next webpagein the chain of web pages which must be completed/loaded for performingthe travel-related action) or submitting the populated data to thetravel provider.

In some embodiments, the instructions include a first set ofinstructions designated for injection into a website file and a secondset of instructions designated for an application running on the userdevice. The first set of instructions may be injected into a websitefile whereas the second set of instructions may not be injected into thewebsite file. The second set of instructions may provide instructionsregarding how the injection should be performed.

Still referring to FIG. 13, process 500 is shown to include providingthe itinerary-specific data, the information for accessing the travelwebsite, and the instructions for performing the travel-related actionto the user device (step 510). Step 510 may be performed by sending themultiple lines of computer code and travel website URL from remoteserver 104 to user device 102 (e.g., via communications interface 150).User device 102 may receive the URL and multiple lines of computer code,navigate to the URL, and automatically perform the travel-related actionby executing the instructions provided by the computer code.

Referring now to FIG. 14, a flowchart of a process 600 for facilitatinginteractions between a travel website and a user device is shown,according to an exemplary embodiment. Process 600 may be performed byuser device 102 using processing circuit 190 and one or more memorymodules contained therein (e.g., memory modules 196-210).

Process 600 is shown to include receiving, at a user device,itinerary-specific data, information for accessing a travel website, andinstructions for performing a travel-related action (step 602). In someembodiments, the itinerary-specific data, information for accessing atravel website, and instructions for performing a travel-related actionmay be received from remote server 104. The information and instructionsreceived in step 602 may be the same or similar to the information andinstructions generated by the remote server in steps 504-508 of process500. For example, itinerary-specific data may include data relating toparticular travel arrangements. The information identifying the travelwebsite may be a URL of a specific webpage of the travel website. TheURL may indicate a particular webpage of a travel website for initiatinga particular travel-related action.

In some embodiments, the instructions for performing the travel-relatedaction include multiple lines of computer code for automaticallynavigating the identified travel website and multiple lines of computercode for automatically providing itinerary-specific data to the travelwebsite. The multiple lines of computer code for automatically providingitinerary-specific data to the travel website may include computer codefor populating form fields of the travel website with itinerary-specificdata. The itinerary-specific data used to populate the form fields maybe data already stored on user device 102 (e.g., in response to aprecious synchronization request) or data communicated to user device102 along with the requested instructions.

In some embodiments, the instructions for performing the travel-relatedaction include multiple lines of computer code for navigating from awebpage associated with the provided URL to a final webpage forcompleting the travel-related action. The multiple lines of computercode for automatically navigating the identified travel website may besite-specific instructions relating to a particular travel website. Thenavigation instructions may include a URL of a webpage for initiatingthe travel-related action as well as a sequence of steps or actionsnecessary to complete the travel-related action. In some embodiments,the navigation instructions include multiple lines of computer code forautomatically following hyperlinks within the travel website foradvancing to another webpage (e.g., the next webpage in the chain of webpages which must be completed/loaded for performing the travel-relatedaction) or submitting the populated data to the travel provider.

In some embodiments, the instructions for performing the travel-relatedaction include a first set of instructions designated for injection intoa website file and a second set of instructions designated for anapplication running on the user device. The first set of instructionsmay be injected into a website file whereas the second set ofinstructions may not be injected into the website file. The second setof instructions may provide instructions regarding how the injectionshould be performed or otherwise used to configure an applicationrunning on the user device.

Process 600 is shown to include receiving, at the user device, an inputrequesting performance of a travel-related action by the user device(step 604). The input may be a user input received via user interfacedevices 154. In some embodiments, the input requesting performance of atravel-related action may be a user selection of a selectable iconpresented via a user interface (e.g., user interface 300). For example,as described with reference to FIG. 6, user interface 300 may include aselectable icon 304.

Selectable icon 304 may be displayed when a travel-related action isavailable to be performed. For example, online check-in for a particularflight may become available one hour before the flight departure time.User device 102 may receive a notification from remote server 104 or mayindependently determine that online flight check-in is available whenthe current time is within the one hour window before the flightdeparture time. In response to a determination (e.g., by remote server104 or by user device 102) that a travel-related action is available,selectable icon 304 may be displayed within user interface 300. In someembodiments, the selectable icon includes an indication of thetravel-related action (e.g., “Flight check-in”) associated with theselectable icon.

Still referring to FIG. 14, process 600 is shown to include using theinstructions and the itinerary-specific data to automatically navigatethe identified travel website and perform the travel-related action(step 606). In some implementations, step 606 is performed by navigationmodule 208 and/or form-filling module 210. Step 606 may includeautomatically navigating from a webpage associated with the provided URLto a final webpage for completing the travel-related action,automatically following hyperlinks within the travel website foradvancing to another webpage, and/or automatically submittingitinerary-specific data to the travel provider.

In some embodiments, step 606 includes automatically populating formfields with user-specific and/or itinerary-specific data. The data maybe included in the instructions received from remote server 104previously stored on user device 102 (e.g., by data synchronizationmodule 198). Step 606 may include populating form fields according toliteral instructions received from remote server 104 or according toindependent form-filling logic (e.g., in place of or in addition to theinstructions received from remote server 104). For example, step 606 mayinclude identifying form fields based on the content of the website data(e.g., metadata, HTML data, etc.) and automatically filling identifiedform fields with itinerary-specific or user-specific data. Step 606 isdescribed in greater detail with reference to FIG. 18.

Referring now to FIG. 15, a flowchart of a process 700 for facilitatinginteractions between a travel website and a user device is shown,according to an exemplary embodiment. Process 700 may be performed byremote server 104 using processing circuit 160 and one or more memorymodules contained therein (e.g., memory modules 166-180).

Process 700 is shown to initiating synchronization of itinerary-specificdata and instructions for performing a travel-related action (step 702).In some embodiments, the itinerary-specific data relates to a particulartravel itinerary. In some implementations, step 702 is performed by datasynchronization module 172. Data synchronization module 172 may interactwith itinerary management module 168 and site navigation module 170 toidentify the itinerary-specific data and determine the informationnecessary to prepare the instructions. In some embodiments, thetravel-related action may be based on the particular travel itinerary.In some embodiments, step 702 includes identifying a travel websitethrough which the travel-related action will be performed.Synchronization may be initiated in response to a change in theitinerary-specific data stored at remote server 104 (e.g., in itinerarydatabase 184).

In some embodiments, step 702 includes determining whether theidentified travel website is a supported website for automaticallypopulating form fields. If the travel website is supported, it may beunnecessary to prepare instructions for presenting contextual userinterface element 112. However, if the travel website is unsupported,step 702 may include determining that instructions for presentingcontextual user interface element 112 should be prepared.

In some embodiments, step 702 includes identifying the informationnecessary to complete the travel-related action. Travel-related actionsmay include checking-in for a flight or a hotel, creating new travelarrangements, confirming or changing existing travel arrangements,canceling travel arrangements, or other types of interactions between auser and a travel provider. Data synchronization module 172 may interactwith user information module 166, itinerary management module 168,and/or site navigation module 170 to obtain the required information.

Still referring to FIG. 15, process 700 is shown to include retrievingitinerary-specific data relating to the particular travel itinerary(step 704). In some implementations, step 704 may be performed byitinerary management module 168. The itinerary-specific data may beretrieved from an itinerary database (e.g., itinerary database 184).Itinerary-specific data may include data relating to particular travelarrangements. For example, when a user purchases a flight ticket,information relating to the travel arrangement (e.g., flight number,reservation number, departure time, departure location, passenger name,etc.) may provided to itinerary management module 168 and stored initinerary database 184.

In some embodiments, step 704 includes interacting with travel provider106 to retrieve detailed information relating to various travelarrangements. In some embodiments, itinerary-specific data includes datarelating to both a particular user and a particular travel arrangement.In other words, itinerary-specific data may include user-specific data.In some embodiments, the itinerary-specific data includes all the rawinformation necessary to perform a travel-related action.

Still referring to FIG. 15, process 700 is shown to include identifyinginformation for accessing a travel website for performing thetravel-related action (step 706). In some implementations, step 506 isperformed by site navigation module 170. The website for performing thetravel-related action may be a website operated by a travel providerthrough which the travel-related action may be performed.

The information for accessing the travel website may be a URL of aspecific webpage of the travel website. The URL may indicate aparticular webpage of a travel website for initiating a particulartravel-related action. For example, within a travel website operated byan airline, the URL of the webpage for checking-in for a flight may bedifferent than the URL of the webpage for changing a departure time orcancelling a flight reservation. In some embodiments, step 706 includesaccessing a list of direct URLs to the specific web pages for performingtravel-related actions. The list of direct URLs and the associatedtravel-related actions may be retrieved from site navigation database186.

Still referring to FIG. 15, process 700 is shown to include generatinginstructions for presenting the itinerary-specific data in a contextualuser interface element on the user device (step 708). In someimplementations, step 708 is performed by contextual user interfaceelement instructions module 180. Instructions for presenting theitinerary-specific data in a contextual user interface element mayinclude instructions for selecting particular data elements to includein contextual user interface element 112. In some embodiments, theinstructions include selection logic based on the content of the webpagedisplayed (e.g., HTML content, XML content, metadata content, etc.). Inother embodiments, the instructions may include instructions to presentspecific data elements when a particular webpage is displayed.

In some embodiments, step 708 includes generating instructions forinserting data from contextual user interface element 112 into anidentified form field of the travel website. For example, a user maydrag and drop data elements from contextual user interface element 112into form fields of the travel website. Step 708 may include generatinginstructions specifying that when a data element is dragged fromcontextual user interface element 112 into a space occupied by a formfield, the value of the data element should be automatically insertedinto the form field.

Still referring to FIG. 15, process 700 is shown to include providingthe itinerary-specific data, the information for accessing the travelwebsite, and the instructions for presenting the itinerary-specific datain the contextual user interface element to the user device (step 710).Step 710 may be performed by sending the instructions for presenting theitinerary-specific data and travel website URL from remote server 104 touser device 102 (e.g., via communications interface 150). User device102 may receive the URL and instructions, navigate to the URL, andpresent one or more of the itinerary-specific data in the contextualuser interface element according to the instructions.

Referring now to FIG. 16, a flowchart of a process 800 for facilitatinginteractions between a travel website and a user device is shown,according to an exemplary embodiment. Process 800 may be performed byuser device 102 using processing circuit 190 and one or more memorymodules contained therein (e.g., memory modules 196-210).

Process 800 is shown to include receiving, at a user device,itinerary-specific data, information for accessing a travel website, andinstructions for presenting the itinerary-specific data in a userinterface element (step 802). In some embodiments, theitinerary-specific data, information for accessing a travel website, andinstructions for performing a travel-related action may be received fromremote server 104. The information and instructions received in step 802may be the same or similar to the information and instructions generatedby the remote server in steps 704-708 of process 700. For example,itinerary-specific data may include data relating to particular travelarrangements. The information identifying the travel website may be aURL of a specific webpage of the travel website. The URL may indicate aparticular webpage of a travel website for initiating a particulartravel-related action.

Instructions for presenting the itinerary-specific data in a contextualuser interface element may include multiple lines of computer code forselecting particular data elements to include in contextual userinterface element 112. In some embodiments, the instructions includeselection logic based on the content of the webpage displayed (e.g.,HTML content, XML content, metadata content, etc.). In otherembodiments, the instructions may include instructions to presentspecific data elements when a particular webpage is displayed.

In some embodiments, the instructions for presenting theitinerary-specific data in a contextual user interface element includemultiple lines of computer code for inserting data from contextual userinterface element 112 into an identified form field of the travelwebsite. For example, a user may drag and drop data elements fromcontextual user interface element 112 into form fields of the travelwebsite. In some embodiments, the instructions for presenting theitinerary-specific data in a contextual user interface element includemultiple lines of computer code specifying that when a data element isdragged from contextual user interface element 112 into a space occupiedby a form field, the value of the data element should be automaticallyinserted into the form field.

Still referring to FIG. 16, process 800 is shown to include receiving,at the user device, an input requesting performance of a travel-relatedaction by the user device (step 804). The input may be a user inputreceived via user interface devices 154. In some embodiments, the inputrequesting performance of a travel-related action may be a userselection of a selectable icon presented via a user interface (e.g.,user interface 300). For example, as described with reference to FIG. 6,user interface 300 may include a selectable icon 304.

Selectable icon 304 may be displayed when a travel-related action isavailable to be performed. For example, online check-in for a particularflight may become available one hour before the flight departure time.User device 102 may receive a notification from remote server 104 or mayindependently determine that online flight check-in is available whenthe current time is within the one hour window before the flightdeparture time. In response to a determination (e.g., by remote server104 or by user device 102) that a travel-related action is available,selectable icon 304 may be displayed within user interface 300. In someembodiments, the selectable icon includes an indication of thetravel-related action (e.g., “Flight check-in”) associated with theselectable icon.

Still referring to FIG. 16, process 800 is shown to include presentingthe itinerary-specific data in a contextual user interface element onthe user device concurrently with a webpage of the travel website (step806). In some implementations, step 806 may be performed by contextualuser interface element module 206. Advantageously, presentingitinerary-specific data in a contextual user interface element mayfacilitate application of such data to form fields in the travel websitewhen automatic population is unavailable (e.g., for unsupported orrecently-changed websites). Itinerary-specific data may be presented inthe contextual user interface element as selectable and/or movableicons.

In some embodiments, step 806 includes presenting data elements relevantto a particular web page. Step 806 may include determining which dataelements are relevant to a particular web page based on the content ofthe web page data (e.g., HTML data, XML data, form field names, etc.).As user device 102 navigates from page to page (e.g., automatically orin response to a user input), step 806 may include adjusting the dataelements displayed in the contextual user interface element.

In some embodiments, step 806 includes executing instructions generatedby remote server 104 (e.g., by contextual user interface elementinstructions module 180) for presenting contextual user interfaceelement 112. Instructions for presenting contextual user interfaceelement 112 may include instructions for selecting particular dataelements to include in contextual user interface element 112. In someembodiments, the instructions include selection logic based on thecontent of the webpage displayed. In other embodiments, the instructionsspecify particular data elements to present when a particular webpage isdisplayed.

Still referring to FIG. 16, in some embodiments, process 800 furtherincludes copying the itinerary-specific data from the contextual userinterface element to a form field of the travel website (step 808). Step808 may include executing additional instructions to insert data fromcontextual user interface element 112 into a form field of the travelwebsite. For example, as previously described, a user may drag and dropdata elements from contextual user interface element 112 into formfields of the travel website. Step 808 may be performed in response to auser dropping a data element into a space occupied by a form field.Executing the additional instructions may cause user device 102 toautomatically insert the value of the data element into the form field.

Referring now to FIG. 17, a flowchart of a process 900 for facilitatinginteractions between a user device and a plurality of different travelwebsites is shown, according to an exemplary embodiment. Process 900 maybe performed by user device 102 using processing circuit 190 and one ormore memory modules contained therein (e.g., memory modules 196-210). Insome implementations, process 900 may be controlled by the instructionsreceived by user device 102 (e.g., from remote server 104) forcompleting a travel-related action.

Process 900 is shown to include identifying a set of itinerary-specificdata elements required for completing a travel-related action (step902). Typically, the itinerary-specific data elements required forcompleting a travel-related action may depend on a variety of factors.For example, the information required for checking-in for a flight maybe different than the information required for cancelling a hotelreservation. Additionally, different travel providers and travelwebsites may require different information from users for completingsimilar travel-related actions. Advantageously, step 902 may beperformed to identify the particular itinerary-specific data elementsrequired for performing a particular travel-related action at aparticular travel website.

In some embodiments, step 902 includes receiving a list ofitinerary-specific data elements required for completing thetravel-related action from remote server 104. Alternatively,itinerary-specific data elements may be identified by user device 102based on the content of the travel website for performing the travelrelated action, the type of travel-related action, or any other relevantidentification criteria.

Still referring to FIG. 17, process 900 is shown to include determining,for each of the identified data elements, whether storeditinerary-specific data includes a corresponding data value (step 904).Step 904 may include loading itinerary-specific data from a local memoryof user device 102 and determining whether the data includes data valuesfor each of the data elements required for completing the travel-relatedaction. The itinerary-specific data may have been received by userdevice 102 during a prior synchronization with remote server 104 (e.g.,as described with reference to FIG. 13).

Process 900 is shown to further include assigning data values to theidentified data elements required for completing the travel-relatedaction using the stored itinerary-specific data (step 906). Step 906 mayinclude extracting a data value from the stored itinerary-specific datafor each of the identified data elements and assigning the extracteddata value to the corresponding itinerary-specific data elements. Forexample, a stored value for a flight reservation number may be assignedto a “Flight Reservation #” data element. In some embodiments, step 906may include obtaining any missing data values from remote server 104(e.g., by re-synchronizing the itinerary-specific data, by queryingremote server 104 for supplemental data, etc.).

Still referring to FIG. 17, process 900 is shown to include identifyinga data type associated with each of the assigned data values (step 908)and converting the assigned data values to a uniform format (step 910).Values for the itinerary-specific data elements may exist in a varietyof data types (e.g., different formats, different encoding, differentlanguage, etc.). The variety of disparate data types may result fromitinerary-specific data being gathered from many different travelproviders. Advantageously, steps 908 and 910 can be performed toharmonize the data from many different travel providers by convertingthe data to a single, easily comprehensible format, thereby facilitatinginteractions between user device 102 and the many different travelproviders.

Process 900 is shown to include identifying one or more web controls ofa website for completing the travel-related action (step 912). Webcontrols may be elements of a website which allow for interaction withthe website. For example, web controls may include text controls forentering text into a form field of the website, selection controls forselecting a particular element of the website (e.g., in a dropdown box,as a selectable icon, etc.), navigation controls for navigating throughmultiple pages of the website (e.g., via embedded hyperlinks), or anyother controls through which a website can receive a user interaction.

Step 912 may include identifying web controls of the travel websitewhich may be used to complete the travel-related action. For example,step 912 may include identifying text controls for enteringitinerary-specific data into an empty form field of a travel website,identifying navigation controls for advancing to another webpage of thetravel website once the itinerary-specific data has been entered, and/oridentifying any other controls which would normally beoperated/manipulated by a user (e.g., by manually entering text,manually clicking a link, etc.) when performing the travel-relatedaction.

Still referring to FIG. 17, process 900 is shown to include injectingcode for automatically activating the identified web controls (step914). In some embodiments, step 914 includes injecting code into awebsite file which has been downloaded from the travel website andloaded by a web browser running on a mobile device. The code may includemultiple lines of computer code for performing the travel-relatedaction.

Advantageously, the code may include executable instructions (e.g.,JavaScript® instructions) for automatically activating one or more ofthe identified web controls. For example, the injected code may includeinstructions for automatically entering a data value into a form fieldof the travel website, instructions for automatically advancing toanother page of the travel website, and/or code for automaticallyperforming any type of action/interaction which would normally beperformed by a user. The code may mimic manual actions such as pressinga button, selecting a value from a dropdown list, entering text, or anyother action which would typically be performed by a user to completethe travel-related action.

Referring now to FIG. 18, a flowchart of a process 1000 forautomatically performing travel-related actions is shown, according toan exemplary embodiment. Process 1000 may be performed by user device102 using processing circuit 190 and one or more memory modulescontained therein (e.g., memory modules 196-210). In someimplementations, process 1000 may be controlled by the instructionsreceived by user device 102 (e.g., from remote server 104) forcompleting a travel-related action.

Process 1000 is shown to include identifying a set of itinerary-specificdata elements relevant to a particular webpage (step 1002). Theitinerary-specific data elements relevant to a particular webpage may bebased on the information required to be entered into the webpage (e.g.,in form fields). The information required by a webpage depend on avariety of factors. For example, different travel providers and travelwebsites may require different information from users for completing thesame travel-related action. Additionally, the information required by awebpage may depend on the type of travel-related action which can beperformed through the webpage. Furthermore, a single travel-relatedaction may require information to be entered into multiple web pages.Step 1002 may be performed to identify the particular itinerary-specificdata elements required by a particular webpage for performing aparticular travel-related action at a particular travel website.

Still referring to FIG. 18, process 1000 is shown to includedetermining, for each of the identified data elements, whether storeditinerary-specific data includes a corresponding data value (step 1004).Step 1004 may include loading itinerary-specific data from a localmemory of user device 102 and determining whether the data includes datavalues for each of the data elements required for completing thetravel-related action. The itinerary-specific data may have beenreceived by user device 102 during a prior synchronization with remoteserver 104 (e.g., as described with reference to FIG. 13).

Process 1000 is shown to further include assigning data values to theidentified data elements relevant to the particular webpage using thestored itinerary-specific data (step 1006). Step 1006 may includeextracting a data value from the stored itinerary-specific data for eachof the identified data elements and assigning the extracted data valueto the corresponding itinerary-specific data elements. For example, astored value for a flight departure time may be assigned to a “FlightDeparture Time” data element. In some embodiments, step 1006 may includeobtaining any missing data values from remote server 104 (e.g., byre-synchronizing the itinerary-specific data, by querying remote server104 for supplemental data, etc.).

Still referring to FIG. 18, process 1000 is shown to includeautomatically filling form fields of the webpage with the assigned datavalues (step 1008). In some embodiments, step 1008 includesautomatically populating form fields with user-specific and/oritinerary-specific data. Step 1008 may include populating form fieldsaccording to literal instructions received from remote server 104 oraccording to independent form-filling logic (e.g., in place of or inaddition to the instructions received from remote server 104). Forexample, step 1008 may include identifying form fields based on thecontent of the website data (e.g., metadata, HTML data, etc.) andautomatically filling identified form fields with itinerary-specific oruser-specific data. Advantageously, step 1008 may allowitinerary-specific data to be provided to a travel website withoutrequiring a user to manually enter the data.

Process 1000 is shown to further include automatically navigating toanother webpage (step 1010). In some implementations, step 1010 isperformed by navigation module 208 and/or form-filling module 210. Step1010 may include automatically navigating through multiple web pagesrequired for completing a travel-related action. For example, step 1010may include executing JavaScript® instructions for automaticallyadvancing to another webpage, automatically following hyperlinks withinthe travel website, and/or automatically submitting itinerary-specificdata to the travel provider. In some embodiments, step 1010 is performedwhen all required data elements (e.g., as identified in step 1002) areentered into a particular webpage. Advantageously, the combination ofsteps 1008 and 1010 may facilitate automated form filling and navigationthrough a travel website (e.g., without requiring user input).

The construction and arrangement of the systems and methods as shown inthe various exemplary embodiments are illustrative only. Although only afew embodiments have been described in detail in this disclosure, manymodifications are possible (e.g., variations in sizes, dimensions,structures, shapes and proportions of the various elements, values ofparameters, mounting arrangements, use of materials, colors,orientations, etc.). For example, the position of elements may bereversed or otherwise varied and the nature or number of discreteelements or positions may be altered or varied. Accordingly, all suchmodifications are intended to be included within the scope of thepresent disclosure. The order or sequence of any process or method stepsmay be varied or re-sequenced according to alternative embodiments.Other substitutions, modifications, changes, and omissions may be madein the design, operating conditions and arrangement of the exemplaryembodiments without departing from the scope of the present disclosure.

The present disclosure contemplates methods, systems and programproducts on any machine-readable media for accomplishing variousoperations. The embodiments of the present disclosure may be implementedusing existing computer processors, or by a special purpose computerprocessor for an appropriate system, incorporated for this or anotherpurpose, or by a hardwired system. Embodiments within the scope of thepresent disclosure include program products comprising machine-readablemedia for carrying or having machine-executable instructions or datastructures stored thereon. Such machine-readable media can be anyavailable media that can be accessed by a general purpose or specialpurpose computer or other machine with a processor. By way of example,such machine-readable media can comprise RAM, ROM, EPROM, EEPROM, CD-ROMor other optical disk storage, magnetic disk storage or other magneticstorage devices, or any other medium which can be used to carry or storedesired program code in the form of machine-executable instructions ordata structures and which can be accessed by a general purpose orspecial purpose computer or other machine with a processor. Wheninformation is transferred or provided over a network or anothercommunications connection (either hardwired, wireless, or a combinationof hardwired or wireless) to a machine, the machine properly views theconnection as a machine-readable medium. Thus, any such connection isproperly termed a machine-readable medium. Combinations of the above arealso included within the scope of machine-readable media.Machine-executable instructions include, for example, instructions anddata which cause a general purpose computer, special purpose computer,or special purpose processing machines to perform a certain function orgroup of functions.

Although the figures show a specific order of method steps, the order ofthe steps may differ from what is depicted. Also two or more steps maybe performed concurrently or with partial concurrence. Such variationwill depend on the software and hardware systems chosen and on designerchoice. All such variations are within the scope of the disclosure.Likewise, software implementations could be accomplished with standardprogramming techniques with rule based logic and other logic toaccomplish the various connection steps, processing steps, comparisonsteps and decision steps.

What is claimed is:
 1. A system for facilitating interactions between a travel website and a user device, the system comprising: a user device configured to receive itinerary-specific data and instructions for performing a travel-related action from a remote server, the instructions including multiple lines of computer code for automatically navigating a particular travel website and multiple lines of computer code for automatically providing the itinerary-specific data to the travel website; wherein the user device includes an application configured to receive a website file from the travel website and modify the website file by injecting the instructions for performing the travel-related action into the website file; wherein the user device is configured to determine whether automatic form field population is supported for the travel website and to further modify the website file by automatically populating one or more form fields of the website file with the itinerary-specific data in response to a determination that automatic form field population is supported for the travel website; wherein the application comprises an embedded web browser configured to load the modified website file pre-populated with the itinerary-specific data and execute the instructions injected therein, wherein executing the instructions causes the user device to automatically perform the travel-related action, wherein the website file is modified to include the itinerary-specific data prior to being loaded by the web browser; wherein executing the instructions causes the user device to present a contextual user interface element containing the itinerary-specific data in response to a determination that automatic form field population is not supported for the travel website.
 2. The system of claim 1, wherein the multiple lines of computer code for automatically providing the itinerary-specific data to the travel website comprise instructions that cause the user device to automatically populate the one or more form fields of the website file with the itinerary-specific data.
 3. The system of claim 1, wherein the multiple lines of computer code for automatically navigating the travel website are specific to the particular travel website; wherein executing the instructions causes the user device to automatically navigate through multiple pages of the travel website required to perform the travel-related action.
 4. The system of claim 1, wherein the user device is a mobile device configured to execute a mobile application for facilitating interactions with the travel website; wherein the mobile application includes the web browser embedded therein.
 5. The system of claim 1, wherein the user device is configured to receive a user input requesting performance of the travel-related action; wherein the user device is configured to send a request for instructions for performing the travel-related action to the remote server in response to the user input, the request for instructions including an indication of a particular travel itinerary; wherein executing the instructions causes the user device to provide itinerary-specific data relating to the particular travel itinerary to the travel website.
 6. The system of claim 1, further comprising: a remote server configured to receive a request for instructions for performing the travel-related action from the user device, generate the instructions for performing the travel-related action, and provide the instructions to the user device.
 7. The system of claim 6, wherein the request for instructions includes an indication of a particular travel itinerary; wherein the remote server is configured to provide the itinerary-specific data to the user device; and wherein the itinerary-specific data relate to the particular travel itinerary.
 8. The system of claim 6, wherein the remote server is configured to identify a resource location of the travel website for performing the travel-related action and provide the resource location of the identified travel website to the user device; wherein receiving the website file from the travel website includes retrieving a website file associated with the identified resource location.
 9. The system of claim 1, wherein the instructions for performing the travel-related action are computer-executable script instructions.
 10. The system of claim 1, wherein the user device determines whether automatic form field population is supported for the travel website based on the instructions received from the remote server; wherein the instructions received from the remote server include instructions for presenting the contextual user interface element when automatic form field population is not supported for the travel website; wherein the instructions received from the remote server do not include the instructions for presenting the contextual user interface element when automatic form field population is supported for the travel website.
 11. The system of claim 1, wherein the itinerary-specific data are presented as selectable data elements within the contextual user interface element; wherein the user device is configured to receive a user selection of at least one of the selectable data elements and to execute instructions for copying the itinerary-specific data from the contextual user interface element to the form fields of the travel website in response to the user selection.
 12. The system of claim 1, wherein the user device comprises form-filling logic independent from the instructions received from the remote server; wherein the form-filling logic causes the user device to identify the form fields of the travel website based on content of the travel website and to automatically populate the identified form fields with the itinerary-specific data designated for the identified form fields.
 13. A method for facilitating interactions between a travel website and a user device, the method comprising: initiating, at a remote server, synchronization of itinerary-specific data and instructions for performing a travel-related action with a user device; retrieving the itinerary-specific data from an itinerary database, the itinerary-specific data relating to a particular travel itinerary; identifying, by the remote server, information for accessing a travel website for performing the travel-related action; determining whether automatic form field population is supported for the travel website; generating, by the remote server, instructions for performing the travel-related action, the instructions including multiple lines of computer code for automatically navigating the identified travel website and multiple lines of computer code for automatically providing the itinerary-specific data to the travel web site; and providing the information for accessing the travel website and the instructions for performing the travel-related action to the user device, wherein the instructions for performing the travel-related action cause the user device to present a contextual user interface element containing the itinerary-specific data in response to a determination that automatic form field population is not supported for the travel website; wherein the instructions for performing the travel-related action cause the user device to receive a website file from the travel website, modify the website file by automatically populating one or more form fields of the website file with the itinerary-specific data in response to a determination that automatic form field population is supported for the travel website, and load the modified website file pre-populated with the itinerary-specific data using a web browser of the user device, wherein the website file is modified to include the itinerary-specific data prior to being loaded by the web browser.
 14. The method of claim 13, further comprising: retrieving website-specific navigation information from a website navigation database; wherein the multiple lines of computer code for automatically navigating the identified travel website are specific to the identified travel website and based on the website-specific navigation information retrieved from the website navigation database.
 15. The method of claim 13, wherein the multiple lines of computer code for providing the itinerary-specific data to the travel website include instructions for automatically filling form fields of the website file with the itinerary-specific data.
 16. The method of claim 13, further comprising: providing the itinerary-specific data to the user device prior to providing the instructions for performing the travel-related action, wherein the itinerary-specific data is stored on the user device; wherein the instructions for performing the travel-related action include multiple lines of computer code for automatically providing the itinerary-specific data previously stored on the user device to the travel website.
 17. The method of claim 13, wherein the multiple lines of computer code for automatically providing the itinerary-specific data to the travel website include the itinerary-specific data retrieved from the itinerary database.
 18. The method of claim 13, further comprising: retrieving, from a user information database, user-specific information relating to one or more users associated with the particular travel itinerary; wherein the instructions for performing the travel-related action include multiple lines of computer code for automatically providing the user-specific information to the travel website.
 19. The method of claim 13, wherein the instructions for performing the travel-related action define a first set of instructions, the method further comprising: generating a second set of instructions including instructions for injecting the first set of instructions into existing data of the travel website; and providing the second set of instructions to the user device, wherein the second set of instructions causes the user device to create a modified travel website by injecting the first set of instructions into the existing data of the travel web site.
 20. A method for facilitating interactions between a travel website and a user device, the method comprising: receiving, at a user device, itinerary-specific data, information identifying a travel website, and instructions for performing a travel-related action, the instructions including multiple lines of computer code for automatically navigating the travel website and multiple lines of computer code for automatically providing the itinerary-specific data to the travel website, wherein the itinerary-specific data is specific to a particular travel itinerary; receiving, via a user interface element of a user device, an input requesting performance of a travel-related action by the user device; retrieving an original website file from the identified travel website; creating a modified travel web site file by injecting the instructions for performing the travel-related action into the original website file; determining whether automatic form field population is supported for the travel website and further modifying the website file by automatically populating one or more form fields of the website file with the itinerary-specific data in response to a determination that automatic form field population is supported for the travel website; loading the modified travel website file using a web browser of the user device after the website file has been modified by the user device to include the itinerary-specific data; and using the instructions and the itinerary-specific data to automatically navigate the identified travel website and perform the travel-related action, wherein the instructions for performing the travel-related action cause the user device to present a contextual user interface element containing the itinerary-specific data in response to a determination that automatic form field population is not supported for the travel website.
 21. The method of claim 20, further comprising: automatically navigating through multiple pages of the travel website according to the instructions injected into the modified website file. 